2018-10-03 12:36:38 +00:00
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package proxycfg
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import (
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"context"
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"errors"
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"fmt"
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"log"
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"reflect"
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"strings"
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"time"
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"github.com/hashicorp/consul/agent/cache"
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cachetype "github.com/hashicorp/consul/agent/cache-types"
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"github.com/hashicorp/consul/agent/structs"
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"github.com/mitchellh/copystructure"
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)
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const (
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2019-01-18 17:44:04 +00:00
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coalesceTimeout = 200 * time.Millisecond
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rootsWatchID = "roots"
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leafWatchID = "leaf"
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intentionsWatchID = "intentions"
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serviceIDPrefix = string(structs.UpstreamDestTypeService) + ":"
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preparedQueryIDPrefix = string(structs.UpstreamDestTypePreparedQuery) + ":"
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defaultPreparedQueryPollInterval = 30 * time.Second
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2018-10-03 12:36:38 +00:00
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)
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// state holds all the state needed to maintain the config for a registered
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// connect-proxy service. When a proxy registration is changed, the entire state
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// is discarded and a new one created.
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type state struct {
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// logger, source and cache are required to be set before calling Watch.
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logger *log.Logger
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source *structs.QuerySource
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cache *cache.Cache
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// ctx and cancel store the context created during initWatches call
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ctx context.Context
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cancel func()
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proxyID string
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address string
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port int
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proxyCfg structs.ConnectProxyConfig
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token string
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ch chan cache.UpdateEvent
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snapCh chan ConfigSnapshot
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reqCh chan chan *ConfigSnapshot
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}
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// newState populates the state struct by copying relevant fields from the
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// NodeService and Token. We copy so that we can use them in a separate
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// goroutine later without reasoning about races with the NodeService passed
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// (especially for embedded fields like maps and slices).
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//
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// The returned state needs it's required dependencies to be set before Watch
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// can be called.
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func newState(ns *structs.NodeService, token string) (*state, error) {
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if ns.Kind != structs.ServiceKindConnectProxy {
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return nil, errors.New("not a connect-proxy")
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}
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// Copy the config map
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proxyCfgRaw, err := copystructure.Copy(ns.Proxy)
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if err != nil {
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return nil, err
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}
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proxyCfg, ok := proxyCfgRaw.(structs.ConnectProxyConfig)
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if !ok {
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return nil, errors.New("failed to copy proxy config")
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}
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return &state{
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proxyID: ns.ID,
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address: ns.Address,
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port: ns.Port,
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proxyCfg: proxyCfg,
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token: token,
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// 10 is fairly arbitrary here but allow for the 3 mandatory and a
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// reasonable number of upstream watches to all deliver their initial
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// messages in parallel without blocking the cache.Notify loops. It's not a
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// huge deal if we do for a short period so we don't need to be more
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// conservative to handle larger numbers of upstreams correctly but gives
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// some head room for normal operation to be non-blocking in most typical
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// cases.
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ch: make(chan cache.UpdateEvent, 10),
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snapCh: make(chan ConfigSnapshot, 1),
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reqCh: make(chan chan *ConfigSnapshot, 1),
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}, nil
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}
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// Watch initialised watches on all necessary cache data for the current proxy
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// registration state and returns a chan to observe updates to the
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// ConfigSnapshot that contains all necessary config state. The chan is closed
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// when the state is Closed.
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func (s *state) Watch() (<-chan ConfigSnapshot, error) {
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s.ctx, s.cancel = context.WithCancel(context.Background())
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err := s.initWatches()
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if err != nil {
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s.cancel()
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return nil, err
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}
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go s.run()
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return s.snapCh, nil
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}
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// Close discards the state and stops any long-running watches.
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func (s *state) Close() error {
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if s.cancel != nil {
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s.cancel()
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}
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return nil
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}
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// initWatches sets up the watches needed based on current proxy registration
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// state.
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func (s *state) initWatches() error {
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// Watch for root changes
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err := s.cache.Notify(s.ctx, cachetype.ConnectCARootName, &structs.DCSpecificRequest{
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Datacenter: s.source.Datacenter,
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QueryOptions: structs.QueryOptions{Token: s.token},
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}, rootsWatchID, s.ch)
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if err != nil {
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return err
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}
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// Watch the leaf cert
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err = s.cache.Notify(s.ctx, cachetype.ConnectCALeafName, &cachetype.ConnectCALeafRequest{
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Datacenter: s.source.Datacenter,
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Token: s.token,
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Service: s.proxyCfg.DestinationServiceName,
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}, leafWatchID, s.ch)
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if err != nil {
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return err
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}
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// Watch for intention updates
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err = s.cache.Notify(s.ctx, cachetype.IntentionMatchName, &structs.IntentionQueryRequest{
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Datacenter: s.source.Datacenter,
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QueryOptions: structs.QueryOptions{Token: s.token},
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Match: &structs.IntentionQueryMatch{
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Type: structs.IntentionMatchDestination,
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Entries: []structs.IntentionMatchEntry{
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{
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Namespace: structs.IntentionDefaultNamespace,
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Name: s.proxyCfg.DestinationServiceName,
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},
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},
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},
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}, intentionsWatchID, s.ch)
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if err != nil {
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return err
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}
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// Watch for updates to service endpoints for all upstreams
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for _, u := range s.proxyCfg.Upstreams {
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dc := s.source.Datacenter
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if u.Datacenter != "" {
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dc = u.Datacenter
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}
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switch u.DestinationType {
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case structs.UpstreamDestTypePreparedQuery:
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2019-01-18 17:44:04 +00:00
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err = s.cache.Notify(s.ctx, cachetype.PreparedQueryName, &structs.PreparedQueryExecuteRequest{
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Datacenter: dc,
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QueryOptions: structs.QueryOptions{Token: s.token, MaxAge: defaultPreparedQueryPollInterval},
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QueryIDOrName: u.DestinationName,
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Connect: true,
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}, u.Identifier(), s.ch)
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2018-10-03 12:36:38 +00:00
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case structs.UpstreamDestTypeService:
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fallthrough
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case "": // Treat unset as the default Service type
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err = s.cache.Notify(s.ctx, cachetype.HealthServicesName, &structs.ServiceSpecificRequest{
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Datacenter: dc,
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QueryOptions: structs.QueryOptions{Token: s.token},
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ServiceName: u.DestinationName,
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Connect: true,
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}, u.Identifier(), s.ch)
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if err != nil {
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return err
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}
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default:
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return fmt.Errorf("unknown upstream type: %q", u.DestinationType)
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}
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}
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return nil
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}
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func (s *state) run() {
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// Close the channel we return from Watch when we stop so consumers can stop
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// watching and clean up their goroutines. It's important we do this here and
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// not in Close since this routine sends on this chan and so might panic if it
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// gets closed from another goroutine.
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defer close(s.snapCh)
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snap := ConfigSnapshot{
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ProxyID: s.proxyID,
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Address: s.address,
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Port: s.port,
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Proxy: s.proxyCfg,
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UpstreamEndpoints: make(map[string]structs.CheckServiceNodes),
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}
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// This turns out to be really fiddly/painful by just using time.Timer.C
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// directly in the code below since you can't detect when a timer is stopped
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// vs waiting in order to know to reset it. So just use a chan to send
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// ourselves messages.
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sendCh := make(chan struct{})
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var coalesceTimer *time.Timer
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for {
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select {
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case <-s.ctx.Done():
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return
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case u := <-s.ch:
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if err := s.handleUpdate(u, &snap); err != nil {
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s.logger.Printf("[ERR] %s watch error: %s", u.CorrelationID, err)
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continue
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}
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case <-sendCh:
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// Make a deep copy of snap so we don't mutate any of the embedded structs
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// etc on future updates.
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snapCopy, err := snap.Clone()
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if err != nil {
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s.logger.Printf("[ERR] Failed to copy config snapshot for proxy %s",
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s.proxyID)
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continue
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}
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s.snapCh <- *snapCopy
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// Allow the next change to trigger a send
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coalesceTimer = nil
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// Skip rest of loop - there is nothing to send since nothing changed on
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// this iteration
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continue
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case replyCh := <-s.reqCh:
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if !snap.Valid() {
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// Not valid yet just respond with nil and move on to next task.
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replyCh <- nil
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continue
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}
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// Make a deep copy of snap so we don't mutate any of the embedded structs
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// etc on future updates.
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snapCopy, err := snap.Clone()
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if err != nil {
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s.logger.Printf("[ERR] Failed to copy config snapshot for proxy %s",
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s.proxyID)
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continue
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}
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replyCh <- snapCopy
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// Skip rest of loop - there is nothing to send since nothing changed on
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// this iteration
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continue
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}
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// Check if snap is complete enough to be a valid config to deliver to a
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// proxy yet.
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if snap.Valid() {
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// Don't send it right away, set a short timer that will wait for updates
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// from any of the other cache values and deliver them all together.
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if coalesceTimer == nil {
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coalesceTimer = time.AfterFunc(coalesceTimeout, func() {
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// This runs in another goroutine so we can't just do the send
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// directly here as access to snap is racy. Instead, signal the main
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// loop above.
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sendCh <- struct{}{}
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})
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}
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}
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}
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}
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func (s *state) handleUpdate(u cache.UpdateEvent, snap *ConfigSnapshot) error {
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switch u.CorrelationID {
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case rootsWatchID:
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roots, ok := u.Result.(*structs.IndexedCARoots)
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if !ok {
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return fmt.Errorf("invalid type for roots response: %T", u.Result)
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}
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snap.Roots = roots
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case leafWatchID:
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leaf, ok := u.Result.(*structs.IssuedCert)
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if !ok {
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return fmt.Errorf("invalid type for leaf response: %T", u.Result)
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}
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snap.Leaf = leaf
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case intentionsWatchID:
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// Not in snapshot currently, no op
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default:
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// Service discovery result, figure out which type
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switch {
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case strings.HasPrefix(u.CorrelationID, serviceIDPrefix):
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resp, ok := u.Result.(*structs.IndexedCheckServiceNodes)
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if !ok {
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return fmt.Errorf("invalid type for service response: %T", u.Result)
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}
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snap.UpstreamEndpoints[u.CorrelationID] = resp.Nodes
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case strings.HasPrefix(u.CorrelationID, preparedQueryIDPrefix):
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resp, ok := u.Result.(*structs.PreparedQueryExecuteResponse)
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if !ok {
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return fmt.Errorf("invalid type for prepared query response: %T", u.Result)
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}
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snap.UpstreamEndpoints[u.CorrelationID] = resp.Nodes
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default:
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return errors.New("unknown correlation ID")
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}
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}
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return nil
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}
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// CurrentSnapshot synchronously returns the current ConfigSnapshot if there is
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// one ready. If we don't have one yet because not all necessary parts have been
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// returned (i.e. both roots and leaf cert), nil is returned.
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func (s *state) CurrentSnapshot() *ConfigSnapshot {
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// Make a chan for the response to be sent on
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ch := make(chan *ConfigSnapshot, 1)
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s.reqCh <- ch
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// Wait for the response
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return <-ch
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}
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// Changed returns whether or not the passed NodeService has had any of the
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// fields we care about for config state watching changed or a different token.
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func (s *state) Changed(ns *structs.NodeService, token string) bool {
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if ns == nil {
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return true
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}
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return ns.Kind != structs.ServiceKindConnectProxy ||
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s.proxyID != ns.ID ||
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s.address != ns.Address ||
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s.port != ns.Port ||
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!reflect.DeepEqual(s.proxyCfg, ns.Proxy) ||
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s.token != token
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}
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